#include #ifdef DEBUG #include #else #define dump(...) #endif template class SegmentTree{ using value_type = typename Monoid::value_type; protected: const int depth, size, hsize; std::vector data; public: SegmentTree(int n): depth(n > 1 ? 32-__builtin_clz(n-1) + 1 : 1), size((1 << depth) - 1), hsize(size / 2 + 1), data(size + 1, Monoid::id()) {} inline auto operator[](int i) const {return at(i);} inline auto at(int i) const {return data[hsize + i];} inline auto get(int x, int y) const { // [x,y) std::vector memo; value_type ret = Monoid::id(); int l = x + hsize, r = y + hsize; while(l < r){ if(r & 1){ if(COMMUTATIVE) ret = Monoid::op(ret, data[--r]); else memo.push_back(--r); } if(l & 1) ret = Monoid::op(ret, data[l++]); l >>= 1, r >>= 1; } if(not COMMUTATIVE){ std::reverse(memo.begin(), memo.end()); for(auto i : memo) ret = Monoid::op(ret, data[i]); } return ret; } inline void update(int i, const value_type &x){ i += hsize; data[i] = x; while(i > 1) i >>= 1, data[i] = Monoid::op(data[i << 1 | 0], data[i << 1 | 1]); } template inline void init_with_vector(const std::vector &val){ data.assign(size + 1, Monoid::id()); for(int i = 0; i < (int)val.size(); ++i) data[hsize + i] = val[i]; for(int i = hsize-1; i >= 1; --i) data[i] = Monoid::op(data[i << 1 | 0], data[i << 1 | 1]); } template inline void init(const T &val){ init_with_vector(std::vector(hsize, val)); } auto debug(){ return data; } }; template struct MaxPartialSumMonoid{ struct MaxPartialSum{ T sum, left_max, right_max, partial_max; static auto make(T x){return MaxPartialSum({x, x, x, x});} }; using value_type = std::optional; constexpr inline static value_type id(){ return std::nullopt; } constexpr inline static value_type op(const value_type &a, const value_type &b){ if(not a) return b; if(not b) return a; return { { a->sum + b->sum, std::max(a->left_max, a->sum + std::max(b->left_max, b->sum)), std::max(b->right_max, b->sum + std::max(a->right_max, a->sum)), std::max({a->partial_max, b->partial_max, a->right_max + b->left_max}) } }; } }; using Mon = MaxPartialSumMonoid; std::ostream& operator<<(std::ostream &s, const Mon::MaxPartialSum &a){ s << "(" << a.sum << ":" << a.left_max << ":" << a.right_max << ":" << a.partial_max << ")"; return s; } template void chmax(T &a, const U &b){ a = std::max(a, b); } int main(){ int N,Q; while(std::cin >> N >> Q){ SegmentTree seg(N); std::vector a(N); for(int i = 0; i < N; ++i){ std::cin >> a[i]; seg.update(i, Mon::MaxPartialSum::make(a[i])); } for(int i = 0; i < Q; ++i){ std::string com; std::cin >> com; if(com == "set"){ int i, x; std::cin >> i >> x; --i; seg.update(i, Mon::MaxPartialSum::make(x)); a[i] = x; }else{ int l1, l2, r1, r2; std::cin >> l1 >> l2 >> r1 >> r2; --l1, --l2, --r1, --r2; r1 = std::max(l1,r1); l2 = std::min(l2,r2); //dump(a, std::make_pair(l1, l2), std::make_pair(r1, r2)); //dump(seg.debug()); int64_t ans = LLONG_MIN; auto f = [&](int L1, int L2, int R1, int R2){ auto ret = seg.get(L1, L2+1).value_or(Mon::MaxPartialSum::make(0)).right_max + seg.get(L2+1, R1).value_or(Mon::MaxPartialSum::make(0)).sum + seg.get(R1, R2+1).value_or(Mon::MaxPartialSum::make(0)).left_max; if(L2 == R1) ret -= a[L2]; return ret; }; if(l2 <= r1){ ans = f(l1, l2, r1, r2); }else{ chmax(ans, f(l1, r1, r1, r2)); chmax(ans, f(l1, l2, l2, r2)); chmax(ans, seg.get(r1, l2+1)->partial_max); } std::cout << ans << std::endl; } } std::cerr << std::endl; } return 0; }